Printing press drive



A gv c. P. FELDHAUSEN 7 2,354,950

PRINTING PRESS DRIVE Filed Feb. 6, 1943 PRESS Zia/KW Patented Aug. 1, 1944 PRINTING PRESS DRIVE Cyril P. Feldhausen, Wauwatosa, Wis., assignor to Cutler-Hammer, Inc., Milwaukee, Wis., a corporation of Delaware Application February 6, 1943, Serial No. 474,986

17 Claims. (01. 1'l2179) The invention relates to a printing press drive which is particularly suitable for sheet fed printing presses, which must be operated at a speed which may be varied within a wide range and which have to be frequently started, stopped and reversed.

An object of the invention is to provide, in a two motor drive for a printing press which affords forward and reverse inching of the press by a small motor, continuous forward operation at low speed and relatively high and adjustable speed operation by a large motor, quick stoppage by dynamic braking when running at high speed.

Another object is to provide a system of the aforementioned type which when operating at high speed automatically slows down to a creeping speed in the event of improper feeding of a sheet or sheets of paper.

Another object is to provide a system which includes means operable automatically under given conditions for effecting substantially instantaneous change from a high speed to a low speed and return to high speed upon manual operation of an associated part.

Another object is to provide a two motor printing press drive which ailords quick stoppage from any speed.

Another object is to enable instantaneous change in drive from the high speed motor regardless of its speed to the low speed motor for a period determinable by the operator, and to provide for return of the drive to the high speed motor automatically at the termination of such period.

The system comprises a relatively large motor positively coupled to the press. The motor may also be coupled to a counter-shaft by an electromagnetic clutch having two cooperating parts mounted on the motor shaft and on the counter-' shaft, respectively. A small motor provided with a brake is positively coupled to the counters'haft.

A controller provides for starting of the press and operation thereof at low speed by means of the small motor upon energization of the clutch. To increase the speed thelarge motor is energized to take up the load, whereupon the clutch is de-energized and the small'motor is automatically disconnected. If it is desired to stop the press while the large motor is operating the latter is de-energized, the clutch is energized and the brake applied for' quick stoppage of the press. If it is desired to change from a high speed drive by the large motor to a low speed drive by the small motor, the large motor is deenergized and the small motor and clutch are energized, the brake being simultaneously re leased, whereupon the small motor is driven by I the press above synchronous speed to act as a dynamic brake for rapid deceleration of the press to the slow speed provided by the small motor drive. The press may also be reversed by energizing the small motor for reverse rotation. All functions are controlled in a conventional manner from suitable push button stations.

The accompanying diagram illustrates a printing press control system constructed in accordance with my invention.

The system is supplied with energy from the lines L U and L of a three-phase power circuit. A slip-ring induction motor I, having primary terminals I, I and l and secondary terminals I, I and I, is geared in any suitable manner to a press 2. The shaft of the motor I has keyed thereon one element 3' of an electromagnetic clutch 3, which is provided with a cooperating second element 3 and an electromagnetic or energizing winding 3. The element 3 is keyed upon a counter-shaft 4, provided with a gear 5, which engages a pinion 8 keyed upon the shaft of a. small squirrel-cage motor 'i, having terminals 1, I and 1. Connected across the terminals 1* and I is the energizing winding 8 of a magnetic brake 8, the drum of which is keyed to the shaft of the motor I. To control the speed of motor i a'resistor 8 is provided having three star-connected sections 9, 9 and 0. which may be simultaneously varied by means of a bridging contactor 9 The bridging contactor 9 is insulatedly connected to a cross-head ill to move therewith. Said crosshead is provided with a thread which engages a threaded shaft II, to be moved rectilinearly by said shaft in one direction or the other upon rotation of the latter in opposite directions respectively. The shaft Ii may be rotated by a pilot motor II, the latter having a common terminal l2- and forward and reverse terminals l2 and I2 respectively.

The cross-head H1 is also provided with insulated bridging contactors l3, I4 and I5. These sliding bridging contactors cooperate with sta-' tionary contacts as follows: In its lowermost p0 sitlon the contactor l3 engages a contact button it and also an elongated contact segment i1,

ments l8 and I9, respectively, after it has traveled for some distance in an upward direction. In its lowermost position it rests upon two dead buttons as indicated in the diagram. The length of the segments I8 and I9 is determined by the operating cycle of the controller as will be explained hereinafter. The bridging contactor in its lowermost position is adapted to bridge contact buttons 2| and 22 and also an elongated segment 20, arranged in the line of travel of the bridging contactor i5 and in alinement with the button 2|. As the bridging contactor i5 moves upwardly from its lowermost position it leaves the contact buttons 2| and 22, and engages an elongated contact segment 23, so as to complete a circuit between the segments 20 and 23. Upon further upward travel the bridging contactor l5 leaves the segment 20, and engages a contact segment 24 alined with the former, to complete a circuit between the contact segments 23 and 24.

To initiate the various different operations or functions the system includes a normally open running or on push button switch 25 for starting and increasing the speed, a normally open inching push button switch 26, a normally open reverse push button switch 21, a normally closed stop push button switch 28, and 9. normally open off push button switch 29 for changing the speed of the equipment from a higher to a lower speed. The primary circuit of the motor I is connectable to the line for for-- ward rotation by an electromagnetic switch 30, having an energizing winding 30*, normally open main contacts 30 3|! and 30 normally open auxiliary contacts 30 and 30 and normally closed auxiliary contacts 30 and .30 For connecting the motor to the line for reverse rotation the system includes a reverse electromagnetic switch 3 I, having an energizing winding 3 I, normally open main contacts 3| 3| and 3| normally open auxiliary contacts 3H, and normally closed auxiliary contacts,3|.

The primary winding of the large motor I is connectable to the power supply by an electromagnetic switch 32, having an energizing winding 32, normally open main contacts 32 32 and 32 normally open auxiliary contacts 32 and 32, and normally closed auxiliary contacts 32", 32 32 and 32 The system further includes an electromagnetic relay 33, having an energizing winding 33, normally open contacts 33*, and normally closed contacts 33; a relay 34, having an energizing winding 34 and normally open contacts 34*; a relay 35, having an energizing winding 35* and normally open contacts 35; a relay 38, having an energizing winding 36, normally open contacts 38 36 36 and 36' and normally closed contacts 3|; and 36 a relay 31, having an enrgizing winding 3'1, normally closed contacts 31 and 31 and normally open contacts 31"; and

a relay 43, having an energizing winding 43 and normally open contacts 43*, 43 and 43 To control the current in the clutch winding 3, under certain conditions which will be described hereinafter, a resistor 42 is provided.

There is further provided a normally closed limit switch 38 which is opened by the cross-head i0 when it reaches its lowermost position, and a normally closed limit switch 39 which is opened by said cross-head when it reaches the upper limit of its travel. Associated with the press is a switch 40, which is provided with contacts 40"- biased to open position and which are moved to and held in closed position under normal oper- 76 ating conditions. Contacts 40'- are adapted to be tripped to open position in the event of improper feeding of a sheet or sheets of paper. Switch 40 when tripped transfers the press drive from the large to the small motor for operation at low speed. Upon manual resetting of switch 40 to closed position the press will be driven either by the large motor or the small motor, depending upon the position of the cross-head H).

The energizing winding 3 of the electromagnetic clutch 3 may be supplied with rectified direct current by a rectifier 4| having three starconnected rectifying elements 4|, whose like terminals are connected to the lines L L and L respectively, while the other like terminals are connected together and to one terminal of the energizing winding 3 Rectifier 4| includes another group of three rectifier elements 4|, which are also star-connected and have one of their like terminals respectively connected to the lines L L and L said terminals however being 0! opposite polarity to those of the group 4|, connected to the same line terminals. The second terminals of the group 4| are jointly connected to one terminal of the auxiliary contact 3| of switch 3|.

The connection of the system and the operation thereof will now be described. In the position shown in the diagram a circuit is established from line L through the stop push button 23, contact button l6, bridging contactor |3 of crosshead I0, segment through the energizing coil to line L The relay 3B is thus energized and closes its normally open contacts and opens its normally closed contacts. The relay 3! is also energized by a circuit from line L through con tacts coil 31* to line L with consequent closure of contacts 31 and opening of contacts 31* and 31.

If it is now desired to inch the equipment the inch button 26 is depressed. This establishes a circuit from line L through push button switches 28 and 26, contacts 32 energizing coil 30*, and contacts 3| to line L. Thus the switch 30 is energized and closes its main contacts 30, 30 and 30, to connect the small motor I to the power supply for forward direction of rotation. At the same time the brake magnet winding 8' is energized to release the small motor armature. Another circuit extends from contacts 32 through contacts 32*, energizing coil .114 and contacts 3| to line L This energizes relay 34 and closes contacts 34, thus energizing clutch coil 3 through a circuit from the lines U, L and L r through rectifiers 4|, contacts 34 coil 3 and rectifiers 4|, to the lines L L and L This couples the small motor to th large motor shaft. and the press is rotated forwardly at inching speed as long as the inch button 26 is depressed Release of the button 26 will stop the equipment If it is desired to inch the press in the reverse direction with the controller in the position shown, the push button switch 21 is depressed thereby completing a circuit from line L through push button switches 23 and 21, contacts 30 32 and energizing coil 3| to line L. The switch 3| thus closes its normally open contacts 3|, 3| and 3|, thereby connecting the motor 1 to the power lines for rotation thereof in the reverse direction. At the same time the brake magnet coil 3* is energized, as will be obvious. Energizetion of the switch 3| also closes the normally open contacts 3|, which are connected in parallel with the aforementioned contacts 34', so that the clutch coil 3 is also energized to connect the motor 1 to the press and rotate it in said reverse direction.

I! it is desired to run the press continuously at the lowest speed on the "on" push button switch 36 is depressed and then immediately released.

This completes a. circuit from line L through contacts 23 and 26, 33, energizing coil 43-, limit switch 33 to line L. The relay 43 closes and thus parallels the switch 26 by, a circuit extending from one pole (line L) of the switch 36 through contacts 43, contact button 21, bridging contactor II, contact button 22, contacts 43', to the other side of switch 26. Thus upon release of switch 26 the relay 43 remains energized. A circuit is also established from line L through contacts 23, 43, 32", energizing coil 36, and contacts 3i to line I). This again energizes the switch 36 to connect the small motor 1 to the power line for forward direction of rotation and energizes the brake magnet winding 3, through switch contacts 30 and 30 At the same time the relay coil 34' is energized through the contact 43 of relay 43 (then closed) and the normally closed contacts 32 and 32 of switch 32, which connects said relay coil 34' in parallel with the energizing coil 30'. The contacts 34' close and again energize the clutch winding 3,

through a circuit which has been traced heretoi'ore.

Energization oi the winding 43- closes the contacts 43 and connects the pilot motor l2 for forward direction of rotation by a circuit from line L through contacts 30' and 43 to terminal l2", through the motor l2 and terminal 12- to line D. The motor i2 thus rotates to move the cross-head l6 in an upward direction. Upon such movement of the cross-head the bridging contactor l3 breaks the connection between the contact button l6 and contact segment H, but the relay 36 remains energized through its contacts 33 which shunt the connection theretoiore established by the bridging contactor i3. Under normal operating conditions the contacts 40 of the switch 40 are closed, as aioredescribed, thus establishing a circuit from Line L through contacts 46 and the energizing coil 31" of relay to line L. The relay 31 thus is energized and the contacts 31 and 31 are opened, and contacts 31 are closed. As soon as the bridging contactor it leaves its lowermost position it breaksthe circuit between contacts 2| and 22 (thus interrupting the energizing circuit of relay coil 43- to discontinue upward driving 01 crosshead' III by motor i 2), and completes a circuit between segments 20 and 23. A circuit is thus established from line L through contacts 29, 36, segment 23, over contactor l to segment 20, contact 36', energizing coil 30, and through contacts 3| to line L, so that the relay 30 remains energized.

However, if the push button 26 has been held closed the motor i2 continues to rotate until the bridging contactor l4 ultimately makes contactbetween the segments 18 and is. This presets a circuit for coil 39 of switch 33, for completion upon reclosure of contacts 31 of relay 31. Uponto disconnect the small motor 1 from the line and set the brake 3. At the same time bridging contactor 9 acts to gradually decrease the value of resistors 9, 9 and 3 included in circuit with the secondary winding of motor I. De-energization of the relay 34 opens contacts 34', which deenergizes the clutch winding 3, so that the small motor comes to a stop.

Continued upward movement of the cross-head It causes gradual reduction of the value of resistor 9 in circuit to thereby increase the speed of the motor I. At the upper limit of its travel the cross-head it opens the limit switch 39 thereby de-energizing the circuit 01' the relay coil 43' which opens the contacts 43 and brings the pilot motor l2 to astop.

In the event of improper feeding of a sheet or sheets of paper to the press the contacts 40' 0! switch 40 are opened to de-energize the coil 31, which causes closure of contacts 3! and 31 and opening of contacts 31. Closure of contacts 31 completes a circuit from line L through closed contacts 36, segment l3, contactor I4, segment l9, contacts 31, through coil 36', contacts 3i to line L? and switch connects the small motor 1 to the line in the manner aforedescribed. Closure of contacts 31 of 'relay 31 and 39 of switch 30 completes a circuit from line L through closed contacts 36, segment 23 through contactor I6 to- The relay 33 is thus energized to complete a (aircoil 32* of switch 32 the primary windingof the v motor i is connected to the power supply lines, and the contacts 32 and 32 are opened, therecuit from line L through contacts 33, to terminal I2 0! the motor l2, through the motor to terminal 12 and line L, and the motor 12 causes the cross-head ill to move downward to the small motor running position. The energization of the switch 30 also energizes the clutch winding 3c in the manner aforedescribed and the small motor 1 is driven above its synchronous speed to act as a dynamic brake on the press to slow it down. Opening of contacts 31 de-energizes coil 32' and the switch 32 in opening deenergizes the large motor I. Upon manual resetting of switch 46 the contacts 4|! are closed and the relay 31 is again energized. I! under these conditions the bridging contactor l5 still makes contact with segment 24, the large motor I will again be energized and the small motor de-energized and the press accelerated to a relatively high speed (as determined by the position of cross-head l0) v If it is desired to slow down the press while the large 'motor I is energized the push button 29 is depresesd thereby establishing a circuit from line L through contacts 29, 32, coil 33, contacts 39 to line L The energization of relay 33 completes a circuit from line L to contacts 33*, terminal i2 of the motor l2, through the motor to terminal i2 and line L and the crosshead I0 is moved in a downward direction thereby increasing the amount of the resistors 9 in the secondary circuit of the large motor I and slowing down the latter.

If power should fail with the small motor 1 running therelay coil 36 is tie-energized. This effects closure of contact 36 and completes a circuit from line L through contacts 36 through the energizing coil 33', limit switch 36 to line L Upon return of power, relay 33 is thus energized and it connects the pilot motor l2.for reverse rotation to move the cross-head ill in a downward direction.

Pushing the stop button 29 causes de-energizaby de-energizing the switch 39 and the relay 34, 76 tion of the coil 36' of relay 36. This effects com-' pletion of a circuit from line L, through contacts energizing coil 3!, and limit switch 38 to line L The coil 35* of relay 35 is energized thereby energizing the clutch winding 3, through contacts 35" and the resistor 42. The clutch magnet is thus energized at a relatively low value to permit some slippage so as to reduce the shock on the press, but as the brake magnet oi the small motor 1 is de-energized the latter will bring the press ultimately to a standstill.

' If, with the cross-head It in a relatively high speed position, the stop button switch 28 is depressed, the coil 36 of relay 38 is de-energized, thereby closing contacts 35 and causing energization of the relay 35 which connects the magnetizing winding 3 of the clutch 3 to the rectifiers through the contacts 35* thereby coupling the small motor l to the large motor I. The coil 33* of relay 33 is energized through contacts 38', thereby causing contacts 33 to connect the pilot motor 52 across the line for reverse rotation. This causes movement of the cross-head Hi toward its lowermost position.

Depression of the stop button 28 under all conditions causes immedate de-energlzation of all of the switches, whereupon the inch button 26 may be operated thereby energizing the relay 34 and small motor switch 30, by a circuit extending from line L through contacts 26, 32 coil 20*, and contacts 3i to line L for permitting inching or the press while the cross-head i is in any intermediate position, but no othermanipulations of the system are possible until the cross-head again reaches its lowermost position and relay 36 is energized.

In this connection it should be noted that upon deenergization of relay 36 the coil of relay 33 is energized, the relay contacts 33 when thus closed completing a circuit for motor I! to drive cross-head toward its lowermost position.

Also as an incident to depression of stop pushbutton 28 closure of the normally closed contacts 30 and the normally closed contacts 32 is insured, thus completing an energizing circuit for the coil 33 of relay 33, which circuit may be traced from line L through switch 28, contacts 30* and 32 coil 33, through limit switch 38 to lin L Resultant closure of normally open contacts 33 of relay 33 completes a circuit for motor I! to effect downward movement of cross-head It to the position thereof shown, in which position limit switch 38 is opened to effect deenergization of relay coil 33* and opening of contacts 33 thereof to stop motor l2 and thereby discontinue downward movement of said cross-head.

I claim:

1. In a variable speed two-motor drive for printing presses and other machines, in combination, a relatively large driving motor, a smaller driving motor, means affording operative connections between said motors and the driven machine and including a clutch through which operative connection between said smaller motor and the driven machine is made, and control means for said motors and said clutch to ailord drive of the machine by said motors selectively and dynamic braking of the machine by said smaller motor, said control means for dynamic braking providing for engagement of said clutch to connect said smaller motor while the machine operates at any speed within the speed range of said large motor and disconnecting said large motor from circuit.

2. In a variable speed two-motor drive for printing presses and other machines, in combiassasso nation, a relatively large driving motor, a smaller driving motor, means aflording operative connections between said motors and the driven machine and including a clutch through which operative connection between said smaller motor and the driven machine is made, and control means for said motors and said clutch to ailord drive of the machine by said motors selectively, and dynamic braking oi the machine by said smaller motor, said control means for dynamic braking providing forengagement of said clutch to connect said smaller motor while the machine operates at any speed within the speed range of said large motor and disconnecting said large motor from circuit, and said control means upon slowdown of the machine to the speed oi the smaller motor providing for continuin operation of the machine pending a manual operation to stop the machine.

3. For printing presses and other machines, in combination, a relatively large driving motor, a smaller driving motor, means affording operative connections between said motors and the driven machine, said means including an electromagnetic clutch through which operative connection between said smaller motor and the driven machine is made, and control means for said motors and said clutch to afford drive of the machine by said motors selectively and dynamic braking of the machine by said smaller motor with said clutch engaged, said control means including automatic emergency means operative while said large motor is driving with said small motor declutched to efl'ect engagement of said clutch for dynamic braking by said smaller motor.

4. For printing presses and other machines, in combination, a relatively large driving motor, a smaller driving motor, means affording operative connections between said motors and the driven machine, said means including an electromagnetic clutch through which operative connection between said smaller motor and the driven machine is made, and control means for said motors and said clutch to afl'ord drive of the machine by said motors selectively and dynamic braking of the machine by said smaller motor with said clutch engaged, said control means including automatic emergency means operative while said large motor is driving with said smaller motor declutched to effect engagement of said clutch for dynamic braking by said smaller motor for slowdown of the machine and continued drive thereof at the smaller motor speed.

5. For printing presses and other machines, in combination, a relatively large driving motor, a smaller driving motor, means affording operative connections between said motors and the driven machine, said means including an electromagnetic clutch I through which operative connection between said smaller motor and the driven machine is made, and control means for said motors and said clutch to aiiord drive of the machine by said motors selectively and dynamic braking oi the machine by said smaller motor, said control means comprising a manually set device having automatic tripping means and acting when tripped while said clutch is disengaged to effect engagement thereof for dynamic braking by said smaller motor and for continued drive of the machine at the speed oivtlhe smaller motor pending resetting 01 said de ce.

6.- For printing presses and other machines,

termination oi the power supply to said large. motor for dynamic braking oi the machine and in combination, a relatively large driving motor, a smaller driving motor, means ailording operative connections between said motors and the driven machine, said means including an electromagnetic clutch through which operative connection between said smaller motor and the driven machine is made, and control means forsaid motors and said clutch to aiiord drive of the machine by said motors selectively and dynamic braking of the machine by said smaller motor, said control means including a devicehaving different positions for diiierent speeds of the larger motor and further comprising a device having automatic tripping means and acting when tripped while said clutch is disengaged to eiiect engagement thereof for dynamic braking by said smaller motor and for continued drive 01' the machine at the speed of the smaller motor, and said control means upon resetting of the last mentioned device while the first mentioned device calls for'speed higher than that of the smaller motor acting to accelerate the machine to such speed.

'1. In a variable speed two-motor drive for printing presses and other machines, in combination, a relatively large induction motor, a smaller induction motor, means affording operative connections between said motors and the driven machine and including a clutch through which operative connection between said smaller motor and the driven machine is made, and control means for said motors and said clutch to afford driveof the machine by the motors selectively and dynamic braking by said smaller motor, said control means for dynamic braking aftording engagement of said clutch while the machine operates within the range of speed 01' said large motor and for termination oi the supply or power to said large motor.

8. In a variable speed two-motor drive for large printing presses and other machines, in combination, a relatively large induction motor, a smaller induction motor, means affording operative connections between said motors and the driven machine and including a clutch through which operative connection between said smaller motor and the driven machine is made, and control means for said motors and said clutch to afford drive of the machine by 'the motors selectively and dynamic braking by said smaller motor, said control means for dynamic braking aflording engagement of said clutch while the machine operates within the range of speed of said large motor and for termination of the supply of power to said large motor, and said control means comprising an emergency device operable automatically to so eflect dynamic braking and pending manual reset insuring against operation of the machine except within the speed range of said smaller motor.

9. For printing presses and other machines, in combination, a relatively large driving motor of the induction type, a smaller driving motor of the induction type, means affording operative connections between said motors and the driven machine and comprising an electromagnetically controlled clutch through which operative connection between said smaller motor and the driven machine is made, and control means for said motors and clutch to afford drive of the machine by said motors selectively and dynamic braking of the machine by said smaller motor, said control means while the machine, is operating within the speed range of said large motor providing for engagement of said clutch and aiiording slowdown without stopping while limiting the machine to slow speed pending a given manual operation.

' 10. For printing presses and other machines, in combination, a relatively large driving motor for operating the machine in one direction, a smaller driving motor to operate the machine in opposite directions selectively, means affording operative connections between said motors and the driven machine, said means including a controllable clutch through which operative connection between said smaller motor and the driven machine is made, and control means for said motors and said clutch to afford drive of the machine by said motors selectively and drive of the machine by said smaller motor in opposite directions selectively, said control means 'aiiording ior dynamic braking of the machine by said smaller motor engagement of said clutch while the machine is operating within the range of speed of said large motor and for termination of the supply of power to said large motor.

11. For printing presses and other machines, in combination, a relatively large driving motor for operating the machine in one direction, a smaller driving motor to operate the machine in opposite directions selectively, mean afiording operative connections between said motors and the driven machine, said means including a controllable clutch through which operative connection between said smaller motor and the driven machine is made, and control means for said motors and said clutch to ail'ord drive of the machine by said motors selectively and drive of the machine by said smaller motor in opposite directions selectively, said control means ailording for dynamic braking oi' the machine by said smaller motor engagement of said clutch while the machine is operating within the range of speed of said large motor and for termination of the supply of power to said large motor, and comprising to so effect dynamic braking an automatic emergency device requiring manual resetting prior to subsequent drive oi the machine by said large motor.

12. For printing presses and other machines, in combination, a relatively large driving motor, a smaller driving motor, means aiiording operative connections between said motors and the driven machine, said means including a controllable clutch through which operative connection between said smaller motor and the driven machine is made, and control means for said motors and said clutch to afford drive of the machine by said motors selectively,-said control means affordtinued operation of the machine by said smaller -motor pending a manual operation for stopping or for re-acceleration.

13. For printing presses and other machines, in combination, an electric motor drive affording slow speed and a multiplicity of higher speeds and control means for said drive comprising inching means to eiiect drive at slow speed, and

means to eiIect starting and drive at higher speeds, the means to efl'ect operation at higher speeds having a position from which it is movable to eifect speed increase in increments and to which it must be returned prior to effecting re-acceleration after stopping, but said control means meanwhile affording inching at slow speed through the medium of said inching means.

14. For printing presses and other machines, in combination, an eie'ctric motor drive aiiording slow speed and a multiplicity 01' higher speeds, and control means therefor comprising slow speed inching means and starting and running means including a controller movable from a normal position progressively to other positions for predetermined progressively increasing speeds, and said control means necessitating return of said controller to said normal position prior to re-aoceleration after stopping but while ing speeds through the medium 01 said large motor, said control means having a normal condition to which it must be restored prior to restarting said large motor aiter stopping but having inching means operable during return of said control means to said normal condition to effect inching through the medium of said smaller motor.

16. For printing presses and other machines, in combination, a two-motor drive comprising a large motor and a smaller motor, and control means for said motors to effect slow speed inching and starting through the medium of said smaller motor and running at any one of a number of progressively increasing speeds through the medium of said large motor, said control means including a manual inching switch, a

manual starting switch and a movable speed regulating device, which device is movable irom a normal position to render eilfective said large motor and to gradually increase the speed thereof, and said'control means upon stopping said motors requiring return of said speed regulating device to normal position prior to restarting said large motor or restarting said smaller motor through the medium of said starting switch but during return of said device to said normal position enabling inching operation of said smaller motor through the medium of said inching switch.

17. For printing presses and other machines, in combination, a two-motor drive comprising a large motor and a smaller motor, means aflording operative connections between said motors and the driven machine and including a clutch through which operative connection between said 'smaller motor and the driven machine is made,

and control means for said motors and said clutch to afford drive of the machine by said motors selectively and dynamic braking of the machine by said smaller motor with said clutch engaged, said control means comprising means to eiiect running at any one of a number of printing speeds through the medium of said large motor, and emergency means to effect dynamic braking through the medium of said smaller motor for slowdown without stopping, said means for controlling the speed of said large motor tending automatically to return to a given position following operation of said emergency means or stopping by said control means and requiring full return movement prior to restarting of said large motor after stopping operation of said control means, but said control means meanwhile afiording inching operation of said smaller motor through the medium of said inching means and afiording restarting of said large motor without full return of said controller following tripping and resetting of said emergency means.

CYRIL P. FELDHAUSEN. 

